Titlebook: Approximate Circuits; Methodologies and CA Sherief Reda,Muhammad Shafique Book 2019 Springer Nature Switzerland AG 2019 approximate by desi

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https://doi.org/10.1007/978-3-319-99322-5approximate by design; stochastic computing; probabilistic computing; voltage overscaling; variability t

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Erfolgsbedingungen lokaler Bürgerbeteiligungng. Using approximate low-power and low-latency adders can have a significant effect on improving the energy efficiency and performance of a system, at the cost of reasonable accuracy loss. For this chapter, we restrict our focus towards generic configurable models for high-performance (low-latency)

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Zu Untersuchungsdesign und Methodeer, these multiplier architectures are computationally complex, and hence consume more power and occupy more area with long carry-adder trees when implementing multipliers with high bit-width. Approximate computing is an emerging design paradigm and is currently exploited to alleviate such area and

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Zusammenfassung und Schlussfolgerung,regard is the probability of occurrence of error in these arithmetic circuits as this allows us to choose the most efficient configuration of an adder or multiplier for a given application. In this chapter, we present an analytical error analysis approach for approximate adders, which comprise of su

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Schlu? Zusammenfassung und Ergebnissets (adders and multipliers) have demonstrated the potential for efficiency improvements using approximate circuits. However, their broader adoption requires systematic methodologies that can create approximate implementations for any arbitrary circuit. An approximate circuit can be viewed as realizi